CN117340448B - Linkage type double-machine-position semi-automatic laser cutting machine - Google Patents

Abstract

The invention provides a linkage type double-station semiautomatic laser cutting machine applied to the field of laser cutting machines, which is characterized in that a frame is erected on a working machine station which is symmetrically arranged on the left and right sides of the top of a machine table, a square frame carrying a laser cutting head is controlled to move left and right through an electric sliding rail b, and the working intervals of the laser cutting head are alternately switched, so that the laser cutting head can perform laser cutting on the left working machine station when the square frame moves to the left side, the laser cutting head can perform laser cutting on the right working machine station when the square frame moves to the right side, the plate loading on the working machine station is realized, and the operation mode of performing laser cutting processing on the working machine station synchronously is beneficial to realizing the uninterrupted laser cutting operation on the plate by the laser cutting head, thereby improving the utilization efficiency of a single laser cutting head to a certain extent and the efficiency of laser cutting processing.

Description

Linkage type double-machine-position semi-automatic laser cutting machine

Technical Field

The application relates to the field of laser cutting machines, in particular to a linkage type double-machine-position semi-automatic laser cutting machine.

Background

The laser cutting machine is a mechanical processing device which focuses laser emitted from a laser into laser beams with high power density through an optical path system, irradiates the laser beams onto the surface of a workpiece to enable the workpiece to reach a melting point or a boiling point, and blows molten or gasified metal away by means of high-pressure gas.

In the prior art, most of laser cutting machines are used by a single laser cutting head equipped with a single station in the operation process, in the actual use process, a plate is mounted on the station before processing, or when the plate is dismounted from the station after processing, the laser cutting heads are in a shut-down state and cannot carry out continuous laser cutting operation, and in the plate material replacement process, a large number of operation idle periods exist on the laser cutting heads easily, so that the overall working efficiency of the laser cutting processing is affected.

Therefore, a linkage type double-machine-position semi-automatic laser cutting machine is provided to solve some problems in the prior art.

Disclosure of Invention

This application aim at promotes laser cutting machine operation in-process cutting machining's efficiency compares prior art and provides a half automatic laser cutting machine of coordinated type double machine position, including the board, the front fixed mounting of board has control panel, the top left and right sides symmetry of board is provided with the operation position, the top fixed mounting of board has the frame of cover locating two operation position top outsides, and both sides fixed mounting has the electric slide rail b of horizontal setting around the top of frame, fixed mounting has the square frame on electric slide rail b's the sliding end, and the top left and right sides fixed mounting of square frame has the Y axle electric slide rail of vertical setting, fixed mounting has the X axle electric slide rail of horizontal setting on the sliding end of Y axle electric slide rail, and the laser cutting head of vertical setting of fixed mounting on the sliding end of X axle electric slide rail.

Further, the top of each working machine position is fixedly provided with an electric sliding rail a which is longitudinally arranged, one end of the front surface of the electric sliding rail a extends to the outer side of the frame, and the sliding end of the electric sliding rail a is provided with a working table surface which is horizontally arranged.

Further, a plurality of transversely arranged support plates are uniformly distributed on the working table surface, the tops of the support plates are arranged in a zigzag shape, and guide grooves are formed between two adjacent support plates.

Further, the top of the machine table is embedded with a slag collecting hopper positioned between the left working table surface and the right working table surface, and the end wall of the working table surface, which is close to one side of the slag collecting hopper, is provided with a notch communicated with the guide groove.

Further, fixed mounting has the connecting seat on the slip end of electronic slide rail a, and the bottom that the table surface is close to album sediment fill one side rotates with the connecting seat to be connected, and one side fixed mounting who keeps away from album sediment fill on the connecting seat has the electric putter of vertical setting, and electric putter's flexible end slides and contradicts in the bottom of table surface.

Further, the inside front and back both sides rotation of collection sediment fill are installed the roller of symmetry setting, and the activity cup joints between two rollers has set up in the inside wear-resisting conveyer belt of collection sediment fill, and the positive one end of collection sediment fill extends to the board outside, and one of them roller external servo motor.

Further, the external diameter of roller intermediate position is less than the external diameter of its left and right sides both ends position, and wear-resisting conveyer belt closely overlaps the outside of locating two rollers, and wear-resisting conveyer belt's top intermediate position forms the undercut shape structure, and fixed mounting has the curb plate of pressfitting in wear-resisting conveyer belt top on the inner end wall of the left and right sides of collection sediment fill, and the lower extreme of curb plate sets up towards wear-resisting conveyer belt intermediate position slope.

Further, the scraper blade of slip pressfitting on wear-resisting conveyer belt is fixedly installed to album positive one end below of sediment bucket, and the positive one end of scraper blade sets up to downward sloping structure.

Further, two bilateral symmetry vertically arranged clamping rods are slidably arranged above the operation table surface, the front end and the rear end of the clamping rods are in sliding connection with the outer end walls of the front side and the rear side of the operation table surface, bolts perpendicular to the outer end walls of the front side and the rear side of the operation table surface are screwed on the front end and the rear end of the clamping rods, the inside of the clamping rods is close to one side of the middle position of the operation table surface, a plurality of transversely sliding thin sliding sheets are longitudinally arranged from front to back, and reeds are fixedly connected between the thin sliding sheets and the inside of the clamping rods.

Further, the top fixed mounting of board has the fender of enclosing around parcel in frame left and right sides and rear, and encloses the front fixed mounting who keeps off and have the portal, and vertical slip has the guard plate that two bilateral symmetry set up in the portal, and two guard plates are located respectively directly over two operation machine positions, and fixed mounting has two electric telescopic handle of vertical setting on the portal, and two electric telescopic handle's flexible end respectively with two guard plates fixed connection.

Compared with the prior art, the advantage of this application lies in:

(1) According to the laser cutting device, the frame is erected on the operation machine position which is symmetrically arranged on the left side and the right side of the top of the machine table, the electric sliding rail b is used for controlling the square frame carrying the laser cutting head to move left and right, the operation interval of the laser cutting head is alternately switched, so that the laser cutting head can perform laser cutting on the left operation machine position when the square frame moves to the left side, the laser cutting head can perform laser cutting on the right operation machine position when the square frame moves to the right side, plate loading is achieved by one operation machine position, the operation mode of laser cutting processing is synchronously performed by one operation machine position, the laser cutting head is favorable for performing laser cutting operation on plate pieces uninterruptedly, the utilization efficiency of single laser cutting head is improved to a certain extent, and the efficiency of laser cutting processing is favorable for improving.

(2) Through the top with electronic slide rail a vertical fixation in the work position to extend to the outside of frame with the positive one end setting of electronic slide rail a, through the removal of electronic slide rail a to the table surface, make when installing the plate on the table surface, perhaps dismantle the plate of processing completion from the table surface, the table surface stretches out in the frame outside, can effectively promote the simple operation nature when the plate changes.

(3) Through evenly arrange a plurality of horizontal vertical extension boards in table surface's top, because the top of numerous extension boards sets up to zigzag structure, can effectively reduce the extension board top and the board bottom contact surface is little, forms the overhead support's state, has avoided the damage that the laser cutting head caused table surface, extension board when carrying out laser cutting to the board to a certain extent, is favorable to guaranteeing the stable security in the device use.

(4) Through forming the guide slot between two adjacent extension boards, can collect the broken bits that the cutting formed when carrying out laser cutting, avoid the broken bits to outstanding place and laser cutting to follow-up plate in the outside to cause the interference, simultaneously, through install album sediment fill between two adjacent operation mesa to offer the notch that is linked together with the guide slot on the end wall that operation mesa is close to album sediment fill one side, the cooperation sets up electric putter and drives operation mesa and can overturn the slope and shake, is favorable to further promoting the convenience that the broken bits that collects in the guide slot was led into album sediment fill, thereby is favorable to promoting the convenience of broken bits clearance.

(5) Through setting up rotatable wear-resisting conveyer belt in the inside of collection sediment fill, carry with the help of the rotation of wear-resisting conveyer belt, can realize deriving the convenience of slag in the collection sediment fill, simultaneously, through the inside sunken that sets up the intermediate position of roller for wear-resisting conveyer belt's top intermediate position undercut forms convex structure, and the guide and the backstop of the curb plate that cooperate the slope of left and right sides to set up are favorable to guaranteeing the stability of converging in wear-resisting conveyer belt top intermediate position in the guide slot of slag, are favorable to avoiding dropping to wear-resisting conveyer belt bottom in the slag collecting process, avoid appearing blocking up the dead phenomenon of card.

(6) Through with the bilateral symmetry slidable mounting of two longitudinally arranged clamping bars at the top of table surface, realize the ascending location of plate left and right sides on the table surface with the help of the centre gripping of two clamping bars, simultaneously, in the centre gripping in-process, inside the thin gleitbretter of vertically arranging on the clamping bars receives the extrusion back and falls into the clamping bars, realize the ascending location of plate front and back, under the two mutually support, can realize the omnidirectional location to the plate on the table surface only through removing the clamping bars, effectively promoted the device in-service use in-process stability convenience to the plate location.

(7) Through with enclose the fender ring around the parcel in frame left and right sides and rear, the lift of two guard plates of cooperation place ahead left and right sides for when carrying out laser cutting, the guard plate that corresponds the operation mesa dead ahead falls down, carries out the shutoff, is favorable to avoiding when carrying out laser cutting, and external people or object accident visit in the laser cutting head below that is in operating condition, has effectively ensured the device in-process stability security.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a perspective view of the inner side structure of the enclosure of the present application;

FIG. 3 is a perspective view of the top structure of the work machine of the present application;

FIG. 4 is a disassembled view of the connection base and the work surface of the present application;

FIG. 5 is a perspective view of the internal structure of the clamping rod of the present application;

FIG. 6 is a perspective view of the structure of the frame of the present application;

FIG. 7 is a perspective view of the internal structure of the slag collecting hopper;

FIG. 8 is a rear structural perspective view of the portal of the present application;

FIG. 9 is a perspective view of a laser cutting head of the present application performing laser cutting on a left side work implement;

fig. 10 is a perspective view of the laser cutting head of the present application when performing laser cutting on the right side work machine.

The reference numerals in the figures illustrate:

1. a machine table; 101. a control panel; 2. a working machine position; 201. an electric slide rail a; 202. a connecting seat; 203. a work table; 204. a support plate; 205. a notch; 206. an electric push rod; 3. a frame; 301. an electric slide rail b; 302. a block; 303. y-axis electric slide rail; 304. an X-axis electric slide rail; 305. a laser cutting head; 4. a slag collecting hopper; 401. a roller; 402. a wear resistant conveyor belt; 403. a side plate; 404. a scraper; 5. a clamping rod; 501. bao Huapian; 502. a reed; 6. a surrounding baffle; 601. a door frame; 602. a protection plate; 603. an electric telescopic rod.

Detailed Description

The embodiments will be described in detail and throughout the specification with reference to the drawings, wherein, based on the embodiments in the application, all other embodiments obtained by persons skilled in the art without making creative efforts are within the scope of protection of the application.

Examples

The invention provides a linkage type double-station semiautomatic laser cutting machine, referring to fig. 1-10, comprising a machine table 1, wherein the front surface of the machine table 1 is fixedly provided with a control panel 101, the left and right sides of the top of the machine table 1 are symmetrically provided with a working station 2, the top of the machine table 1 is fixedly provided with a frame 3 sleeved outside the upper sides of the two working stations 2, the front and rear sides of the top of the frame 3 are fixedly provided with transversely arranged electric slide rails b301, the sliding ends of the electric slide rails b301 are fixedly provided with a square frame 302, the left and right sides of the top of the square frame 302 are fixedly provided with longitudinally arranged Y-axis electric slide rails 303, the sliding ends of the Y-axis electric slide rails 303 are fixedly provided with transversely arranged X-axis electric slide rails 304, and the sliding ends of the X-axis electric slide rails 304 are fixedly provided with vertically arranged laser cutting heads 305.

During the use of the device, the staff connects the device with an external power supply, so that the external power supply provides power support for the device, then, the staff can control the device to be electrified and started, when a plate to be processed is placed on the left operation machine position 2 for laser cutting processing, the staff moves the square frame 302 to the position right above the left operation machine position 2 through the electric sliding rail b301, at the moment, the laser cutting head 305 can perform laser cutting on the plate on the left operation machine position 2, at the moment, the right operation machine position 2 is in an empty state, and the staff can place the next plate to be processed on the right operation machine position 2, and perform pre-fixing of the next plate to be processed on the right operation machine position 2 in the process of performing laser cutting on the plate on the left operation machine position 2.

After the plate processing of placing on the left side operation machine position 2 is accomplished, the staff controls electronic slide rail b301 and moves square 302 to right side operation machine position 2 directly over, and laser cutting head 305 can carry out laser cutting to the plate on the right side operation machine position 2 this moment, and the staff can replace the plate of accomplishing on the left side operation machine position 2, and the plate that needs to process of follow-up is reinstalled on the left side operation machine position 2, and above-mentioned operation is gone on alternately, realizes the continuous laser cutting processing of laser cutting head 305 to the plate on the left and right sides operation machine position 2.

When the laser cutting head 305 performs laser cutting on the plate, the X-axis electric sliding rail 304 is controlled to move back and forth through the Y-axis electric sliding rail 303, the laser cutting head 305 is controlled to move left and right through the X-axis electric sliding rail 304, the front, back, left and right movement of the laser cutting head 305 is realized, and the laser cutting processing of the plate is realized.

According to the laser cutting device, the frame 3 is erected on the working machine position 2 which is symmetrically arranged on the top of the machine 1, the square frame 302 carrying the laser cutting head 305 is controlled to move left and right through the electric sliding rail b301, the operation interval of the laser cutting head 305 is alternately switched, so that the laser cutting head 305 can perform laser cutting on the left working machine position 2 when the square frame 302 moves to the left, the laser cutting head 305 can perform laser cutting on the right working machine position 2 when the square frame 302 moves to the right, the plate loading is performed on one working machine position 2, the operation mode of laser cutting processing is performed on one working machine position 2 synchronously, the uninterrupted laser cutting of the plate by the laser cutting head 305 is facilitated, the utilization efficiency of the single laser cutting head 305 is improved to a certain extent, and the efficiency of the laser cutting processing is facilitated.

Referring to fig. 2 and 3, an electric slide rail a201 is fixedly installed at the top of each working machine position 2, one end of the front surface of each electric slide rail a201 extends to the outer side of the frame 3, a working table 203 is installed on the sliding end of each electric slide rail a201, and in the using process of the device, a plate to be processed is installed on the working table 203 for laser cutting processing, since one end of the front surface of each electric slide rail a201 extends to the outer side of the frame 3, when the plate on the working table 203 needs to be replaced after processing, the working table 203 can be controlled to move to the front surface through the electric slide rail a201, and is guided out from the inner side of the frame 3, the plate is exposed to the outer side of the frame 3, so that replacement installation of the plate can be more conveniently performed, and convenience in the process that the plate to be processed is installed on the working table 203 can be improved to a certain extent, or the plate is removed from the working table 203 after processing.

Referring to fig. 3, a plurality of support plates 204 are uniformly distributed on a working table 203, the tops of the support plates 204 are arranged in a zigzag manner, and a guide groove is formed between two adjacent support plates 204.

Referring to fig. 2 and 4, a slag collecting hopper 4 between two left and right working tables 203 is inlaid at the top of the machine table 1, a notch 205 communicated with a guide groove is formed in an end wall of one side of the working table 203, which is close to the slag collecting hopper 4, in the using process of the device, when laser cutting is performed, generated slag falls down into the guide groove between two adjacent support plates 204, after post laser cutting processing is stopped, workers can clean the slag falling into the guide groove, and as the slag collecting hopper 4 is arranged between the two working tables 203, a notch 205 communicated with the guide groove is formed in an end wall of one side, close to the slag collecting hopper 4, of the working table 203, in the process of cleaning the slag, the slag in the guide groove can fall into the slag collecting hopper 4 through the notch 205 and is then led out, so that the slag in the guide groove can be cleaned conveniently.

Referring to fig. 4, a connecting seat 202 is fixedly installed on a sliding end of an electric slide rail a201, a bottom of a side of a working table 203, which is close to a slag collecting hopper 4, is rotationally connected with the connecting seat 202, an electric push rod 206 is fixedly installed on a side, which is far away from the slag collecting hopper 4, of the connecting seat 202, and a telescopic end of the electric push rod 206 is in sliding contact with the bottom of the working table 203.

When the operation area of the laser cutting head 305 is moved forward by the operation area of the laser cutting head 305 under the drive of the connecting seat 202, namely, when the operation area 203 is moved forward by the operation area of the laser cutting head 305, the operation area is moved forward by the operation area of the laser cutting head 305, after the processed plate is removed, the next group of plates to be processed are unloaded, the electric push rod 206 can be controlled to be started, the telescopic end of the electric push rod moves upwards to jack up the operation area 203, at the moment, one side of the operation area 203, which is far away from the slag collecting hopper 4, is lifted upwards, the operation area 203 is inclined downwards at a section, which is close to the slag collecting hopper 4, of the operation area 203, by means of the formed inclined plane, the crushed slag in the guide groove can automatically slide into the slag collecting hopper 4 to automatically collect the crushed slag, if the smoothness of the sliding of the crushed slag from the guide groove into the slag collecting hopper 4 needs to be improved, and when the electric push rod 206 jacks up the operation area 203, the telescopic end of the electric push rod can be controlled to be high-frequency and small-amplitude up, so that the shaking of the operation area 203 is realized, thereby the efficiency of the crushed slag in the guide groove to slide downwards into the slag collecting hopper 4 along the inclined plane is enhanced.

Referring to fig. 1, fig. 2 and fig. 7, the rollers 401 symmetrically arranged are rotatably arranged on the front side and the rear side of the interior of the slag collecting hopper 4, the wear-resistant conveying belt 402 arranged in the slag collecting hopper 4 is movably sleeved between the two rollers 401, one end of the front side of the slag collecting hopper 4 extends to the outer side of the machine table 1, one of the rollers 401 is externally connected with a servo motor, during the use of the device, when slag is cleaned, the slag falls down to the top of the wear-resistant conveying belt 402 in the slag collecting hopper 4 through the notch 205, when enough slag is accumulated on the top of the wear-resistant conveying belt 402 in the slag collecting hopper 4 and needs to be cleaned uniformly, the servo motor externally connected with the rollers 401 is controlled by a worker to be electrified to start, the rollers 401 are driven to rotate through the rotation of the servo motor, and then the wear-resistant conveying belt 402 is enabled to rotate, and the slag accumulated on the top of the wear-resistant conveying belt 402 is conveyed to the front side.

At this moment, the staff only needs to dock the dustbin on the front of the slag collecting hopper 4, in the continuous rotation process of the wear-resistant conveying belt 402, the accumulated slag at the top of the dustbin can be automatically conveyed into the dustbin, the application is in the clearance of laser cutting, the slag falling into the guide groove is poured onto the wear-resistant conveying belt 402 in the slag collecting hopper 4 through the inclination of the operation table 203, the follow-up rotation conveying of the wear-resistant conveying belt 402 is realized, the derivation of the accumulated slag above the wear-resistant conveying belt is realized, and the convenience of the staff for cleaning the chips generated by the laser cutting of the device can be effectively promoted.

Referring to fig. 2 and 7, the outer diameter of the middle position of the roller 401 is smaller than the outer diameters of the left and right end positions thereof, the wear-resistant conveying belt 402 is tightly sleeved on the outer sides of the two rollers 401, the middle position of the top of the wear-resistant conveying belt 402 forms a downward concave structure, side plates 403 pressed above the wear-resistant conveying belt 402 are fixedly arranged on the inner end walls of the left and right sides of the slag hopper 4, the lower ends of the side plates 403 are obliquely arranged towards the middle position of the wear-resistant conveying belt 402, and in the using process of the device, the middle position of the roller 401 is in an inward concave structure due to the fact that the outer diameters of the middle positions of the front and rear rollers 401 are smaller than the outer diameters of the two sides of the roller 401, and the middle position of the wear-resistant conveying belt 402 is in an inward concave structure due to the fact that the wear-resistant conveying belt 402 is tightly sleeved on the outer sides of the front and rear rollers 401, and under the adjustment of the shape of the roller 401, the middle position of the wear-resistant conveying belt 402 is in the inward concave structure.

When the slag drops on wear-resisting conveyer belt 402, under the slope guide, the slag that drops can initiatively gather to wear-resisting conveyer belt 402's top intermediate position, simultaneously, this application is pressed together on wear-resisting conveyer belt 402 through the curb plate 403 pressfitting that the inside left and right sides slope of collection sediment fill 4 set up, can shelter from wear-resisting conveyer belt 402 and the clearance between the interior end wall of collection sediment fill 4, further reduces the slag and drops to wear-resisting conveyer belt 402 below from the clearance probability, is favorable to guaranteeing the device to collect the slag and convenient stability of deriving.

Referring to fig. 2 and 7, a scraper 404 which is in sliding press fit on the wear-resistant conveying belt 402 is fixedly installed below one end of the front surface of the slag collecting hopper 4, and one end of the front surface of the scraper 404 is arranged to be of a downward inclined structure.

Referring to fig. 5, two clamping rods 5 are slidably mounted above the working table 203 and are longitudinally arranged symmetrically left and right, the front end and the rear end of each clamping rod 5 are slidably connected with the outer end walls of the front side and the rear side of the working table 203, bolts perpendicular to the outer end walls of the front side and the rear side of the working table 203 are screwed on the front end and the rear end of each clamping rod 5, a plurality of thin sliding sheets 501 which transversely slide are longitudinally distributed from front to rear on one side of the inner side of each clamping rod 5 close to the middle position of the working table 203, and a reed 502 is fixedly connected between each thin sliding sheet 501 and the inner side of each clamping rod 5.

At this time, the positions of the left and right clamping rods 5 can be adjusted by sliding, so that the clamping rods 5 are clamped on the left and right sides of the plate, the clamping rods 5 are used for clamping the plate to form relative extrusion, the thin sliding sheets 501 can overcome the elastic support of the reed 502 after being compressed, the extruded thin sliding sheets 501 are sunk into the clamping rods 5, the non-extruded thin sliding sheets 501 protrude out of the clamping rods 5, at this time, bolts on the front end and the rear end of the clamping rods 5 are screwed, the bolts are driven to move and then are tightly pressed on the operation table 203, the position of the operation table 203 is fixed, and then the position of the plate is fixed through the operation table 203.

This application is through the bilateral symmetry slidable mounting at the top of table surface 203 with the clamping lever 5 of two vertical settings, realize the ascending location of plate left and right sides on table surface 203 with the help of the centre gripping of two clamping levers 5, simultaneously, at the centre gripping in-process, inside the clamping lever 5 is absorbed after receiving the extrusion with the help of the thin gleitbretter 501 of vertical arrangement on the clamping lever 5, realize the ascending location of plate front and back, under the two mutually support, can realize the omnidirectional location to the plate on the table surface 203 only through removing the clamping lever 5, the device in-service use convenience has effectively been promoted.

Referring to fig. 1 and 8, a top of a machine 1 is fixedly provided with a surrounding board 6 surrounding the left side, the right side and the rear of a frame 3, a door frame 601 is fixedly provided on the front surface of the surrounding board 6, two protection boards 602 which are symmetrically arranged left and right are vertically slid in the door frame 601, the two protection boards 602 are respectively located right above two working machine positions 2, two vertically arranged electric telescopic rods 603 are fixedly provided on the door frame 601, and telescopic ends of the two electric telescopic rods 603 are respectively fixedly connected with the two protection boards 602.

In the use process of the device, when the work table 203 carries the plate to move backwards to the inner side of the frame 3, the telescopic end of the corresponding electric telescopic rod 603 moves downwards, the corresponding protection plate 602 is controlled to fall, the protection plate is blocked right in front of the corresponding work table 203, when the work table 203 carries the processed plate to move forwards to the outer side of the frame 3, the telescopic end of the corresponding electric telescopic rod 603 moves upwards, the corresponding protection plate 602 is controlled to lift upwards, and an outlet is provided for the movement out of the work table 203.

This application is through encircling the parcel at frame 3 left and right sides and rear with enclosing fender 6, the lift of two guard plates 602 of cooperation place ahead left and right sides for when carrying out laser cutting, the guard plate 602 that corresponds work table 203 the place ahead falls down, carries out the shutoff, is favorable to avoiding when carrying out laser cutting, and external people or object accident visit in the laser cutting head 305 below that is in operating condition, has effectively ensured the device operation in-process stable security.

The start of the protection plate 602 is associated with the start of the electric slide rail a201 and the electric slide rail b301, when the electric slide rail a201 controls the workbench surface 203 to move back and forth, and when the electric slide rail b301 controls the box 302 to move left and right, the corresponding box 302 cannot be lowered when the workbench surface 203 is not moved into the frame 3, and the box 302 carries the laser cutting head 305 to only move onto the workbench surface 203 entering the frame 3, and the above program design is mutually restricted, so that adverse effects caused by manual misoperation can be avoided.

The foregoing is merely a preferred embodiment of the present application, which is to be taken in conjunction with the actual demands, but the scope of the present application is not limited thereto.

Claims (4)

1. The utility model provides a semi-automatic laser cutting machine of coordinated type double machine position, includes board (1), its characterized in that, the front fixed mounting of board (1) has control panel (101), the top left and right sides symmetry of board (1) is provided with operation machine position (2), the top fixed mounting of board (1) has frame (3) of cover locating two operation machine positions (2) top outsides, and the front and back both sides fixed mounting of the top of frame (3) has electric slide rail b (301) of horizontal setting, fixed mounting has square frame (302) on the sliding end of electric slide rail b (301), and the top left and right sides fixed mounting of square frame (302) has Y axle electric slide rail (303) of vertical setting, fixed mounting has X axle electric slide rail (304) of horizontal setting on the sliding end of Y axle electric slide rail (303), and the sliding end of X axle electric slide rail (304) is last to be fixed mounting has laser cutting head (305) of vertical setting;

the top of each working machine position (2) is fixedly provided with a longitudinally arranged electric sliding rail a (201), one end of the front surface of each electric sliding rail a (201) extends to the outer side of the frame (3), and the sliding end of each electric sliding rail a (201) is provided with a horizontally arranged working table top (203); a plurality of transversely arranged support plates (204) are uniformly distributed on the working table top (203), the tops of the support plates (204) are arranged in a zigzag shape, and guide grooves are formed between two adjacent support plates (204);

the top of the machine table (1) is embedded with a slag collecting hopper (4) positioned between a left working table surface and a right working table surface (203), and a notch (205) communicated with the guide groove is formed in the end wall of the working table surface (203) close to one side of the slag collecting hopper (4);

a connecting seat (202) is fixedly arranged at the sliding end of the electric sliding rail a (201), the bottom of one side, close to the slag collecting hopper (4), of the working table top (203) is rotationally connected with the connecting seat (202), an electric push rod (206) which is vertically arranged is fixedly arranged at one side, far away from the slag collecting hopper (4), of the connecting seat (202), and the telescopic end of the electric push rod (206) is in sliding contact with the bottom of the working table top (203); the two sides of the interior of the slag collecting hopper (4) are rotatably provided with symmetrically arranged rollers (401), a wear-resistant conveying belt (402) arranged in the slag collecting hopper (4) is movably sleeved between the two rollers (401), one end of the front of the slag collecting hopper (4) extends to the outer side of the machine table (1), and one roller (401) is externally connected with a servo motor;

the utility model discloses a bench, including work surface (203), clamping rod (5) that two bilateral symmetry vertically set up are installed to top slidable mounting of work surface (203), and the front and back both ends and the front and back both sides outer end wall sliding connection of work surface (203) of clamping rod (5), screw thread connects the bolt that is perpendicular with the outer end wall of both sides around work surface (203) soon on the front and back both ends of clamping rod (5), one side that is close to work surface (203) intermediate position in the inside of clamping rod (5), a plurality of lateral sliding's thin gleitbretter (501) have vertically been arranged from the front to the back, and fixedly connected with reed (502) between the inside of thin gleitbretter (501) and clamping rod (5).

2. The linkage type double-machine-position semiautomatic laser cutting machine according to claim 1, wherein the outer diameter of the middle position of the rollers (401) is smaller than the outer diameter of the positions of the left end and the right end of the rollers, the wear-resistant conveying belt (402) is tightly sleeved on the outer sides of the two rollers (401), the middle position of the top of the wear-resistant conveying belt (402) forms a downward concave structure, side plates (403) pressed above the wear-resistant conveying belt (402) are fixedly arranged on the inner end walls of the left side and the right side of the slag collecting hopper (4), and the lower ends of the side plates (403) are obliquely arranged towards the middle position of the wear-resistant conveying belt (402).

3. The linkage type double-machine-position semiautomatic laser cutting machine according to claim 2, wherein a scraper (404) which is pressed on the wear-resistant conveying belt (402) in a sliding manner is fixedly installed below one end of the front face of the slag collecting hopper (4), and one end of the front face of the scraper (404) is arranged to be in a downward inclined structure.

4. The linkage type double-machine-position semiautomatic laser cutting machine according to claim 1, wherein the top of the machine table (1) is fixedly provided with a surrounding baffle (6) which surrounds the left side, the right side and the rear side of the frame (3), a portal frame (601) is fixedly arranged on the front surface of the surrounding baffle (6), two protection plates (602) which are arranged in a bilateral symmetry manner are vertically slid in the portal frame (601), the two protection plates (602) are respectively positioned right above the two working machine positions (2), two electric telescopic rods (603) which are vertically arranged are fixedly arranged on the portal frame (601), and the telescopic ends of the two electric telescopic rods (603) are respectively fixedly connected with the two protection plates (602).